diff options
author | Michael Sevakis <jethead71@rockbox.org> | 2008-03-25 02:34:12 +0000 |
---|---|---|
committer | Michael Sevakis <jethead71@rockbox.org> | 2008-03-25 02:34:12 +0000 |
commit | 27cf67733936abd75fcb1f8da765977cd75906ee (patch) | |
tree | f894211a8a0c77b402dd3250b2bee2d17dcfe13f /firmware/export | |
parent | bc2f8fd8f38a3e010cd67bbac358f6e9991153c6 (diff) | |
download | rockbox-27cf67733936abd75fcb1f8da765977cd75906ee.tar.gz rockbox-27cf67733936abd75fcb1f8da765977cd75906ee.zip |
Add a complete priority inheritance implementation to the scheduler (all mutex ownership and queue_send calls are inheritable). Priorities are differential so that dispatch depends on the runnable range of priorities. Codec priority can therefore be raised in small steps (pcmbuf updated to enable). Simplify the kernel functions to ease implementation and use the same kernel.c for both sim and target (I'm tired of maintaining two ;_). 1) Not sure if a minor audio break at first buffering issue will exist on large-sector disks (the main mutex speed issue was genuinely resolved earlier). At this point it's best dealt with at the buffering level. It seems a larger filechunk could be used again. 2) Perhaps 64-bit sims will have some minor issues (finicky) but a backroll of the code of concern there is a 5-minute job. All kernel objects become incompatible so a full rebuild and update is needed.
git-svn-id: svn://svn.rockbox.org/rockbox/trunk@16791 a1c6a512-1295-4272-9138-f99709370657
Diffstat (limited to 'firmware/export')
-rw-r--r-- | firmware/export/config.h | 14 | ||||
-rw-r--r-- | firmware/export/kernel.h | 94 | ||||
-rw-r--r-- | firmware/export/system.h | 14 | ||||
-rw-r--r-- | firmware/export/thread.h | 371 |
4 files changed, 256 insertions, 237 deletions
diff --git a/firmware/export/config.h b/firmware/export/config.h index 6a04504613..1a288dd590 100644 --- a/firmware/export/config.h +++ b/firmware/export/config.h | |||
@@ -371,10 +371,20 @@ | |||
371 | #endif | 371 | #endif |
372 | 372 | ||
373 | /* define for all cpus from ARM family */ | 373 | /* define for all cpus from ARM family */ |
374 | #if (CONFIG_CPU == IMX31L) | ||
375 | #define CPU_ARM | ||
376 | #define ARM_ARCH 6 /* ARMv6 */ | ||
377 | #endif | ||
378 | |||
379 | #if defined(CPU_TCC77X) || defined(CPU_TCC780X) | ||
380 | #define CPU_ARM | ||
381 | #define ARM_ARCH 5 /* ARMv5 */ | ||
382 | #endif | ||
383 | |||
374 | #if defined(CPU_PP) || (CONFIG_CPU == PNX0101) || (CONFIG_CPU == S3C2440) \ | 384 | #if defined(CPU_PP) || (CONFIG_CPU == PNX0101) || (CONFIG_CPU == S3C2440) \ |
375 | || (CONFIG_CPU == DSC25) || (CONFIG_CPU == IMX31L) || (CONFIG_CPU == DM320) \ | 385 | || (CONFIG_CPU == DSC25) || (CONFIG_CPU == DM320) |
376 | || defined(CPU_TCC77X) || defined(CPU_TCC780X) | ||
377 | #define CPU_ARM | 386 | #define CPU_ARM |
387 | #define ARM_ARCH 4 /* ARMv4 */ | ||
378 | #endif | 388 | #endif |
379 | 389 | ||
380 | /* Determine if accesses should be strictly long aligned. */ | 390 | /* Determine if accesses should be strictly long aligned. */ |
diff --git a/firmware/export/kernel.h b/firmware/export/kernel.h index 70a2f98d59..78403c8b7d 100644 --- a/firmware/export/kernel.h +++ b/firmware/export/kernel.h | |||
@@ -76,6 +76,8 @@ | |||
76 | #define SYS_SCREENDUMP MAKE_SYS_EVENT(SYS_EVENT_CLS_MISC, 0) | 76 | #define SYS_SCREENDUMP MAKE_SYS_EVENT(SYS_EVENT_CLS_MISC, 0) |
77 | #define SYS_CAR_ADAPTER_RESUME MAKE_SYS_EVENT(SYS_EVENT_CLS_MISC, 1) | 77 | #define SYS_CAR_ADAPTER_RESUME MAKE_SYS_EVENT(SYS_EVENT_CLS_MISC, 1) |
78 | 78 | ||
79 | #define IS_SYSEVENT(ev) ((ev & SYS_EVENT) == SYS_EVENT) | ||
80 | |||
79 | struct queue_event | 81 | struct queue_event |
80 | { | 82 | { |
81 | long id; | 83 | long id; |
@@ -87,68 +89,92 @@ struct queue_sender_list | |||
87 | { | 89 | { |
88 | /* If non-NULL, there is a thread waiting for the corresponding event */ | 90 | /* If non-NULL, there is a thread waiting for the corresponding event */ |
89 | /* Must be statically allocated to put in non-cached ram. */ | 91 | /* Must be statically allocated to put in non-cached ram. */ |
90 | struct thread_entry *senders[QUEUE_LENGTH]; | 92 | struct thread_entry *senders[QUEUE_LENGTH]; /* message->thread map */ |
93 | struct thread_entry *list; /* list of senders in map */ | ||
91 | /* Send info for last message dequeued or NULL if replied or not sent */ | 94 | /* Send info for last message dequeued or NULL if replied or not sent */ |
92 | struct thread_entry *curr_sender; | 95 | struct thread_entry *curr_sender; |
96 | #ifdef HAVE_PRIORITY_SCHEDULING | ||
97 | struct blocker blocker; | ||
98 | #endif | ||
93 | }; | 99 | }; |
94 | #endif /* HAVE_EXTENDED_MESSAGING_AND_NAME */ | 100 | #endif /* HAVE_EXTENDED_MESSAGING_AND_NAME */ |
95 | 101 | ||
102 | #ifdef HAVE_PRIORITY_SCHEDULING | ||
103 | #define QUEUE_GET_THREAD(q) \ | ||
104 | (((q)->send == NULL) ? NULL : (q)->send->blocker.thread) | ||
105 | #else | ||
106 | /* Queue without priority enabled have no owner provision _at this time_ */ | ||
107 | #define QUEUE_GET_THREAD(q) \ | ||
108 | (NULL) | ||
109 | #endif | ||
110 | |||
96 | struct event_queue | 111 | struct event_queue |
97 | { | 112 | { |
98 | struct thread_queue queue; /* Waiter list */ | 113 | struct thread_entry *queue; /* waiter list */ |
99 | struct queue_event events[QUEUE_LENGTH]; /* list of events */ | 114 | struct queue_event events[QUEUE_LENGTH]; /* list of events */ |
100 | unsigned int read; /* head of queue */ | 115 | unsigned int read; /* head of queue */ |
101 | unsigned int write; /* tail of queue */ | 116 | unsigned int write; /* tail of queue */ |
102 | #ifdef HAVE_EXTENDED_MESSAGING_AND_NAME | 117 | #ifdef HAVE_EXTENDED_MESSAGING_AND_NAME |
103 | struct queue_sender_list *send; /* list of threads waiting for | 118 | struct queue_sender_list *send; /* list of threads waiting for |
104 | reply to an event */ | 119 | reply to an event */ |
120 | #ifdef HAVE_PRIORITY_SCHEDULING | ||
121 | struct blocker *blocker_p; /* priority inheritance info | ||
122 | for sync message senders */ | ||
105 | #endif | 123 | #endif |
106 | #if NUM_CORES > 1 | ||
107 | struct corelock cl; /* inter-core sync */ | ||
108 | #endif | 124 | #endif |
125 | IF_COP( struct corelock cl; ) /* multiprocessor sync */ | ||
109 | }; | 126 | }; |
110 | 127 | ||
128 | #ifdef HAVE_PRIORITY_SCHEDULING | ||
129 | #define MUTEX_SET_THREAD(m, t) ((m)->blocker.thread = (t)) | ||
130 | #define MUTEX_GET_THREAD(m) ((m)->blocker.thread) | ||
131 | #else | ||
132 | #define MUTEX_SET_THREAD(m, t) ((m)->thread = (t)) | ||
133 | #define MUTEX_GET_THREAD(m) ((m)->thread) | ||
134 | #endif | ||
135 | |||
111 | struct mutex | 136 | struct mutex |
112 | { | 137 | { |
113 | struct thread_entry *queue; /* Waiter list */ | 138 | struct thread_entry *queue; /* waiter list */ |
114 | #if CONFIG_CORELOCK == SW_CORELOCK | 139 | int count; /* lock owner recursion count */ |
115 | struct corelock cl; /* inter-core sync */ | 140 | #ifdef HAVE_PRIORITY_SCHEDULING |
141 | struct blocker blocker; /* priority inheritance info | ||
142 | for waiters */ | ||
143 | bool no_preempt; /* don't allow higher-priority thread | ||
144 | to be scheduled even if woken */ | ||
145 | #else | ||
146 | struct thread_entry *thread; | ||
116 | #endif | 147 | #endif |
117 | struct thread_entry *thread; /* thread that owns lock */ | 148 | IF_COP( struct corelock cl; ) /* multiprocessor sync */ |
118 | int count; /* lock owner recursion count */ | 149 | unsigned char locked; /* locked semaphore */ |
119 | unsigned char locked; /* locked semaphore */ | ||
120 | }; | 150 | }; |
121 | 151 | ||
122 | #if NUM_CORES > 1 | 152 | #if NUM_CORES > 1 |
123 | struct spinlock | 153 | struct spinlock |
124 | { | 154 | { |
125 | struct corelock cl; /* inter-core sync */ | 155 | struct thread_entry *thread; /* lock owner */ |
126 | struct thread_entry *thread; /* lock owner */ | 156 | int count; /* lock owner recursion count */ |
127 | int count; /* lock owner recursion count */ | 157 | struct corelock cl; /* multiprocessor sync */ |
128 | }; | 158 | }; |
129 | #endif | 159 | #endif |
130 | 160 | ||
131 | #ifdef HAVE_SEMAPHORE_OBJECTS | 161 | #ifdef HAVE_SEMAPHORE_OBJECTS |
132 | struct semaphore | 162 | struct semaphore |
133 | { | 163 | { |
134 | struct thread_entry *queue; /* Waiter list */ | 164 | struct thread_entry *queue; /* Waiter list */ |
135 | #if CONFIG_CORELOCK == SW_CORELOCK | 165 | int count; /* # of waits remaining before unsignaled */ |
136 | struct corelock cl; /* inter-core sync */ | 166 | int max; /* maximum # of waits to remain signaled */ |
137 | #endif | 167 | IF_COP( struct corelock cl; ) /* multiprocessor sync */ |
138 | int count; /* # of waits remaining before unsignaled */ | ||
139 | int max; /* maximum # of waits to remain signaled */ | ||
140 | }; | 168 | }; |
141 | #endif | 169 | #endif |
142 | 170 | ||
143 | #ifdef HAVE_EVENT_OBJECTS | 171 | #ifdef HAVE_EVENT_OBJECTS |
144 | struct event | 172 | struct event |
145 | { | 173 | { |
146 | struct thread_entry *queues[2]; /* waiters for each state */ | 174 | struct thread_entry *queues[2]; /* waiters for each state */ |
147 | #if CONFIG_CORELOCK == SW_CORELOCK | 175 | unsigned char automatic; /* event performs auto-reset */ |
148 | struct corelock cl; /* inter-core sync */ | 176 | unsigned char state; /* state: 1 = signaled */ |
149 | #endif | 177 | IF_COP( struct corelock cl; ) /* multiprocessor sync */ |
150 | unsigned char automatic; /* event performs auto-reset */ | ||
151 | unsigned char state; /* state: 1 = signaled */ | ||
152 | }; | 178 | }; |
153 | #endif | 179 | #endif |
154 | 180 | ||
@@ -208,7 +234,9 @@ extern void queue_wait_w_tmo(struct event_queue *q, struct queue_event *ev, | |||
208 | int ticks); | 234 | int ticks); |
209 | extern void queue_post(struct event_queue *q, long id, intptr_t data); | 235 | extern void queue_post(struct event_queue *q, long id, intptr_t data); |
210 | #ifdef HAVE_EXTENDED_MESSAGING_AND_NAME | 236 | #ifdef HAVE_EXTENDED_MESSAGING_AND_NAME |
211 | extern void queue_enable_queue_send(struct event_queue *q, struct queue_sender_list *send); | 237 | extern void queue_enable_queue_send(struct event_queue *q, |
238 | struct queue_sender_list *send, | ||
239 | struct thread_entry *owner); | ||
212 | extern intptr_t queue_send(struct event_queue *q, long id, intptr_t data); | 240 | extern intptr_t queue_send(struct event_queue *q, long id, intptr_t data); |
213 | extern void queue_reply(struct event_queue *q, intptr_t retval); | 241 | extern void queue_reply(struct event_queue *q, intptr_t retval); |
214 | extern bool queue_in_queue_send(struct event_queue *q); | 242 | extern bool queue_in_queue_send(struct event_queue *q); |
@@ -223,6 +251,11 @@ extern int queue_broadcast(long id, intptr_t data); | |||
223 | extern void mutex_init(struct mutex *m); | 251 | extern void mutex_init(struct mutex *m); |
224 | extern void mutex_lock(struct mutex *m); | 252 | extern void mutex_lock(struct mutex *m); |
225 | extern void mutex_unlock(struct mutex *m); | 253 | extern void mutex_unlock(struct mutex *m); |
254 | #ifdef HAVE_PRIORITY_SCHEDULING | ||
255 | /* Temporary function to disable mutex preempting a thread on unlock */ | ||
256 | static inline void mutex_set_preempt(struct mutex *m, bool preempt) | ||
257 | { m->no_preempt = !preempt; } | ||
258 | #endif | ||
226 | #if NUM_CORES > 1 | 259 | #if NUM_CORES > 1 |
227 | extern void spinlock_init(struct spinlock *l); | 260 | extern void spinlock_init(struct spinlock *l); |
228 | extern void spinlock_lock(struct spinlock *l); | 261 | extern void spinlock_lock(struct spinlock *l); |
@@ -240,6 +273,5 @@ extern void event_init(struct event *e, unsigned int flags); | |||
240 | extern void event_wait(struct event *e, unsigned int for_state); | 273 | extern void event_wait(struct event *e, unsigned int for_state); |
241 | extern void event_set_state(struct event *e, unsigned int state); | 274 | extern void event_set_state(struct event *e, unsigned int state); |
242 | #endif /* HAVE_EVENT_OBJECTS */ | 275 | #endif /* HAVE_EVENT_OBJECTS */ |
243 | #define IS_SYSEVENT(ev) ((ev & SYS_EVENT) == SYS_EVENT) | ||
244 | 276 | ||
245 | #endif /* _KERNEL_H_ */ | 277 | #endif /* _KERNEL_H_ */ |
diff --git a/firmware/export/system.h b/firmware/export/system.h index b973b57fd9..dc3853211b 100644 --- a/firmware/export/system.h +++ b/firmware/export/system.h | |||
@@ -159,6 +159,20 @@ int get_cpu_boost_counter(void); | |||
159 | #define H_TO_BE32(x) (x) | 159 | #define H_TO_BE32(x) (x) |
160 | #endif | 160 | #endif |
161 | 161 | ||
162 | /* Get the byte offset of a type's member */ | ||
163 | #define OFFSETOF(type, membername) ((off_t)&((type *)0)->membername) | ||
164 | |||
165 | /* Get the type pointer from one of its members */ | ||
166 | #define TYPE_FROM_MEMBER(type, memberptr, membername) \ | ||
167 | ((type *)((intptr_t)(memberptr) - OFFSETOF(type, membername))) | ||
168 | |||
169 | /* returns index of first set bit + 1 or 0 if no bits are set */ | ||
170 | int find_first_set_bit(uint32_t val); | ||
171 | |||
172 | static inline __attribute__((always_inline)) | ||
173 | uint32_t isolate_first_bit(uint32_t val) | ||
174 | { return val & -val; } | ||
175 | |||
162 | /* gcc 3.4 changed the format of the constraints */ | 176 | /* gcc 3.4 changed the format of the constraints */ |
163 | #if (__GNUC__ >= 3) && (__GNUC_MINOR__ > 3) || (__GNUC__ >= 4) | 177 | #if (__GNUC__ >= 3) && (__GNUC_MINOR__ > 3) || (__GNUC__ >= 4) |
164 | #define I_CONSTRAINT "I08" | 178 | #define I_CONSTRAINT "I08" |
diff --git a/firmware/export/thread.h b/firmware/export/thread.h index dd97ab1e83..bb1cb7cd17 100644 --- a/firmware/export/thread.h +++ b/firmware/export/thread.h | |||
@@ -26,21 +26,35 @@ | |||
26 | 26 | ||
27 | /* Priority scheduling (when enabled with HAVE_PRIORITY_SCHEDULING) works | 27 | /* Priority scheduling (when enabled with HAVE_PRIORITY_SCHEDULING) works |
28 | * by giving high priority threads more CPU time than less priority threads | 28 | * by giving high priority threads more CPU time than less priority threads |
29 | * when they need it. | 29 | * when they need it. Priority is differential such that the priority |
30 | * | 30 | * difference between a lower priority runnable thread and the highest priority |
31 | * runnable thread determines the amount of aging nescessary for the lower | ||
32 | * priority thread to be scheduled in order to prevent starvation. | ||
33 | * | ||
31 | * If software playback codec pcm buffer is going down to critical, codec | 34 | * If software playback codec pcm buffer is going down to critical, codec |
32 | * can change it own priority to REALTIME to override user interface and | 35 | * can gradually raise its own priority to override user interface and |
33 | * prevent playback skipping. | 36 | * prevent playback skipping. |
34 | */ | 37 | */ |
38 | #define PRIORITY_RESERVED_HIGH 0 /* Reserved */ | ||
39 | #define PRIORITY_RESERVED_LOW 32 /* Reserved */ | ||
35 | #define HIGHEST_PRIORITY 1 /* The highest possible thread priority */ | 40 | #define HIGHEST_PRIORITY 1 /* The highest possible thread priority */ |
36 | #define LOWEST_PRIORITY 100 /* The lowest possible thread priority */ | 41 | #define LOWEST_PRIORITY 31 /* The lowest possible thread priority */ |
37 | #define PRIORITY_REALTIME 1 | 42 | /* Realtime range reserved for threads that will not allow threads of lower |
38 | #define PRIORITY_USER_INTERFACE 4 /* The main thread */ | 43 | * priority to age and run (future expansion) */ |
39 | #define PRIORITY_RECORDING 4 /* Recording thread */ | 44 | #define PRIORITY_REALTIME_1 1 |
40 | #define PRIORITY_PLAYBACK 4 /* or REALTIME when needed */ | 45 | #define PRIORITY_REALTIME_2 2 |
41 | #define PRIORITY_BUFFERING 4 /* Codec buffering thread */ | 46 | #define PRIORITY_REALTIME_3 3 |
42 | #define PRIORITY_SYSTEM 6 /* All other firmware threads */ | 47 | #define PRIORITY_REALTIME_4 4 |
43 | #define PRIORITY_BACKGROUND 8 /* Normal application threads */ | 48 | #define PRIORITY_REALTIME 4 /* Lowest realtime range */ |
49 | #define PRIORITY_USER_INTERFACE 16 /* The main thread */ | ||
50 | #define PRIORITY_RECORDING 16 /* Recording thread */ | ||
51 | #define PRIORITY_PLAYBACK 16 /* Variable between this and MAX */ | ||
52 | #define PRIORITY_PLAYBACK_MAX 5 /* Maximum allowable playback priority */ | ||
53 | #define PRIORITY_BUFFERING 16 /* Codec buffering thread */ | ||
54 | #define PRIORITY_SYSTEM 18 /* All other firmware threads */ | ||
55 | #define PRIORITY_BACKGROUND 20 /* Normal application threads */ | ||
56 | #define NUM_PRIORITIES 32 | ||
57 | #define PRIORITY_IDLE 32 /* Priority representative of no tasks */ | ||
44 | 58 | ||
45 | /* TODO: Only a minor tweak to create_thread would be needed to let | 59 | /* TODO: Only a minor tweak to create_thread would be needed to let |
46 | * thread slots be caller allocated - no essential threading functionality | 60 | * thread slots be caller allocated - no essential threading functionality |
@@ -59,80 +73,40 @@ | |||
59 | 73 | ||
60 | #define DEFAULT_STACK_SIZE 0x400 /* Bytes */ | 74 | #define DEFAULT_STACK_SIZE 0x400 /* Bytes */ |
61 | 75 | ||
62 | /** | ||
63 | * "Busy" values that can be swapped into a variable to indicate | ||
64 | * that the variable or object pointed to is in use by another processor | ||
65 | * core. When accessed, the busy value is swapped-in while the current | ||
66 | * value is atomically returned. If the swap returns the busy value, | ||
67 | * the processor should retry the operation until some other value is | ||
68 | * returned. When modification is finished, the new value should be | ||
69 | * written which unlocks it and updates it atomically. | ||
70 | * | ||
71 | * Procedure: | ||
72 | * while ((curr_value = swap(&variable, BUSY_VALUE)) == BUSY_VALUE); | ||
73 | * | ||
74 | * Modify/examine object at mem location or variable. Create "new_value" | ||
75 | * as suitable. | ||
76 | * | ||
77 | * variable = new_value or curr_value; | ||
78 | * | ||
79 | * To check a value for busy and perform an operation if not: | ||
80 | * curr_value = swap(&variable, BUSY_VALUE); | ||
81 | * | ||
82 | * if (curr_value != BUSY_VALUE) | ||
83 | * { | ||
84 | * Modify/examine object at mem location or variable. Create "new_value" | ||
85 | * as suitable. | ||
86 | * variable = new_value or curr_value; | ||
87 | * } | ||
88 | * else | ||
89 | * { | ||
90 | * Do nothing - already busy | ||
91 | * } | ||
92 | * | ||
93 | * Only ever restore when an actual value is returned or else it could leave | ||
94 | * the variable locked permanently if another processor unlocked in the | ||
95 | * meantime. The next access attempt would deadlock for all processors since | ||
96 | * an abandoned busy status would be left behind. | ||
97 | */ | ||
98 | #define STATE_BUSYuptr ((void*)UINTPTR_MAX) | ||
99 | #define STATE_BUSYu8 UINT8_MAX | ||
100 | #define STATE_BUSYi INT_MIN | ||
101 | |||
102 | #ifndef SIMULATOR | 76 | #ifndef SIMULATOR |
103 | /* Need to keep structures inside the header file because debug_menu | 77 | /* Need to keep structures inside the header file because debug_menu |
104 | * needs them. */ | 78 | * needs them. */ |
105 | #ifdef CPU_COLDFIRE | 79 | #ifdef CPU_COLDFIRE |
106 | struct regs | 80 | struct regs |
107 | { | 81 | { |
108 | unsigned int macsr; /* 0 - EMAC status register */ | 82 | uint32_t macsr; /* 0 - EMAC status register */ |
109 | unsigned int d[6]; /* 4-24 - d2-d7 */ | 83 | uint32_t d[6]; /* 4-24 - d2-d7 */ |
110 | unsigned int a[5]; /* 28-44 - a2-a6 */ | 84 | uint32_t a[5]; /* 28-44 - a2-a6 */ |
111 | void *sp; /* 48 - Stack pointer (a7) */ | 85 | uint32_t sp; /* 48 - Stack pointer (a7) */ |
112 | void *start; /* 52 - Thread start address, or NULL when started */ | 86 | uint32_t start; /* 52 - Thread start address, or NULL when started */ |
113 | }; | 87 | }; |
114 | #elif CONFIG_CPU == SH7034 | 88 | #elif CONFIG_CPU == SH7034 |
115 | struct regs | 89 | struct regs |
116 | { | 90 | { |
117 | unsigned int r[7]; /* 0-24 - Registers r8 thru r14 */ | 91 | uint32_t r[7]; /* 0-24 - Registers r8 thru r14 */ |
118 | void *sp; /* 28 - Stack pointer (r15) */ | 92 | uint32_t sp; /* 28 - Stack pointer (r15) */ |
119 | void *pr; /* 32 - Procedure register */ | 93 | uint32_t pr; /* 32 - Procedure register */ |
120 | void *start; /* 36 - Thread start address, or NULL when started */ | 94 | uint32_t start; /* 36 - Thread start address, or NULL when started */ |
121 | }; | 95 | }; |
122 | #elif defined(CPU_ARM) | 96 | #elif defined(CPU_ARM) |
123 | struct regs | 97 | struct regs |
124 | { | 98 | { |
125 | unsigned int r[8]; /* 0-28 - Registers r4-r11 */ | 99 | uint32_t r[8]; /* 0-28 - Registers r4-r11 */ |
126 | void *sp; /* 32 - Stack pointer (r13) */ | 100 | uint32_t sp; /* 32 - Stack pointer (r13) */ |
127 | unsigned int lr; /* 36 - r14 (lr) */ | 101 | uint32_t lr; /* 36 - r14 (lr) */ |
128 | void *start; /* 40 - Thread start address, or NULL when started */ | 102 | uint32_t start; /* 40 - Thread start address, or NULL when started */ |
129 | }; | 103 | }; |
130 | #endif /* CONFIG_CPU */ | 104 | #endif /* CONFIG_CPU */ |
131 | #else | 105 | #else |
132 | struct regs | 106 | struct regs |
133 | { | 107 | { |
134 | void *t; /* Simulator OS thread */ | 108 | void *t; /* Simulator OS thread */ |
135 | void *c; /* Condition for blocking and sync */ | 109 | void *s; /* Semaphore for blocking and wakeup */ |
136 | void (*start)(void); /* Start function */ | 110 | void (*start)(void); /* Start function */ |
137 | }; | 111 | }; |
138 | #endif /* !SIMULATOR */ | 112 | #endif /* !SIMULATOR */ |
@@ -154,13 +128,13 @@ enum | |||
154 | thread_thaw is called with its ID */ | 128 | thread_thaw is called with its ID */ |
155 | THREAD_NUM_STATES, | 129 | THREAD_NUM_STATES, |
156 | TIMEOUT_STATE_FIRST = STATE_SLEEPING, | 130 | TIMEOUT_STATE_FIRST = STATE_SLEEPING, |
157 | #if NUM_CORES > 1 | ||
158 | STATE_BUSY = STATE_BUSYu8, /* Thread slot is being examined */ | ||
159 | #endif | ||
160 | }; | 131 | }; |
161 | 132 | ||
162 | #if NUM_CORES > 1 | 133 | #if NUM_CORES > 1 |
163 | #define THREAD_DESTRUCT ((const char *)0x84905617) | 134 | /* Pointer value for name field to indicate thread is being killed. Using |
135 | * an alternate STATE_* won't work since that would interfere with operation | ||
136 | * while the thread is still running. */ | ||
137 | #define THREAD_DESTRUCT ((const char *)~(intptr_t)0) | ||
164 | #endif | 138 | #endif |
165 | 139 | ||
166 | /* Link information for lists thread is in */ | 140 | /* Link information for lists thread is in */ |
@@ -188,7 +162,7 @@ void corelock_unlock(struct corelock *cl); | |||
188 | /* Use native atomic swap/exchange instruction */ | 162 | /* Use native atomic swap/exchange instruction */ |
189 | struct corelock | 163 | struct corelock |
190 | { | 164 | { |
191 | unsigned char locked; | 165 | volatile unsigned char locked; |
192 | } __attribute__((packed)); | 166 | } __attribute__((packed)); |
193 | 167 | ||
194 | #define corelock_init(cl) \ | 168 | #define corelock_init(cl) \ |
@@ -207,15 +181,36 @@ struct corelock | |||
207 | #define corelock_unlock(cl) | 181 | #define corelock_unlock(cl) |
208 | #endif /* core locking selection */ | 182 | #endif /* core locking selection */ |
209 | 183 | ||
210 | struct thread_queue | 184 | #ifdef HAVE_PRIORITY_SCHEDULING |
185 | struct blocker | ||
211 | { | 186 | { |
212 | struct thread_entry *queue; /* list of threads waiting - | 187 | struct thread_entry *thread; /* thread blocking other threads |
213 | _must_ be first member */ | 188 | (aka. object owner) */ |
214 | #if CONFIG_CORELOCK == SW_CORELOCK | 189 | int priority; /* highest priority waiter */ |
215 | struct corelock cl; /* lock for atomic list operations */ | 190 | struct thread_entry * (*wakeup_protocol)(struct thread_entry *thread); |
216 | #endif | 191 | }; |
192 | |||
193 | /* Choices of wakeup protocol */ | ||
194 | |||
195 | /* For transfer of object ownership by one thread to another thread by | ||
196 | * the owning thread itself (mutexes) */ | ||
197 | struct thread_entry * | ||
198 | wakeup_priority_protocol_transfer(struct thread_entry *thread); | ||
199 | |||
200 | /* For release by owner where ownership doesn't change - other threads, | ||
201 | * interrupts, timeouts, etc. (mutex timeout, queues) */ | ||
202 | struct thread_entry * | ||
203 | wakeup_priority_protocol_release(struct thread_entry *thread); | ||
204 | |||
205 | |||
206 | struct priority_distribution | ||
207 | { | ||
208 | uint8_t hist[NUM_PRIORITIES]; /* Histogram: Frequency for each priority */ | ||
209 | uint32_t mask; /* Bitmask of hist entries that are not zero */ | ||
217 | }; | 210 | }; |
218 | 211 | ||
212 | #endif /* HAVE_PRIORITY_SCHEDULING */ | ||
213 | |||
219 | /* Information kept in each thread slot | 214 | /* Information kept in each thread slot |
220 | * members are arranged according to size - largest first - in order | 215 | * members are arranged according to size - largest first - in order |
221 | * to ensure both alignment and packing at the same time. | 216 | * to ensure both alignment and packing at the same time. |
@@ -224,88 +219,83 @@ struct thread_entry | |||
224 | { | 219 | { |
225 | struct regs context; /* Register context at switch - | 220 | struct regs context; /* Register context at switch - |
226 | _must_ be first member */ | 221 | _must_ be first member */ |
227 | void *stack; /* Pointer to top of stack */ | 222 | uintptr_t *stack; /* Pointer to top of stack */ |
228 | const char *name; /* Thread name */ | 223 | const char *name; /* Thread name */ |
229 | long tmo_tick; /* Tick when thread should be woken from | 224 | long tmo_tick; /* Tick when thread should be woken from |
230 | timeout */ | 225 | timeout - |
226 | states: STATE_SLEEPING/STATE_BLOCKED_W_TMO */ | ||
231 | struct thread_list l; /* Links for blocked/waking/running - | 227 | struct thread_list l; /* Links for blocked/waking/running - |
232 | circular linkage in both directions */ | 228 | circular linkage in both directions */ |
233 | struct thread_list tmo; /* Links for timeout list - | 229 | struct thread_list tmo; /* Links for timeout list - |
234 | Self-pointer-terminated in reverse direction, | 230 | Circular in reverse direction, NULL-terminated in |
235 | NULL-terminated in forward direction */ | 231 | forward direction - |
236 | struct thread_queue *bqp; /* Pointer to list variable in kernel | 232 | states: STATE_SLEEPING/STATE_BLOCKED_W_TMO */ |
233 | struct thread_entry **bqp; /* Pointer to list variable in kernel | ||
237 | object where thread is blocked - used | 234 | object where thread is blocked - used |
238 | for implicit unblock and explicit wake */ | 235 | for implicit unblock and explicit wake |
239 | #if CONFIG_CORELOCK == SW_CORELOCK | 236 | states: STATE_BLOCKED/STATE_BLOCKED_W_TMO */ |
240 | struct thread_entry **bqnlp; /* Pointer to list variable in kernel | 237 | #if NUM_CORES > 1 |
241 | object where thread is blocked - non-locked | 238 | struct corelock *obj_cl; /* Object corelock where thead is blocked - |
242 | operations will be used */ | 239 | states: STATE_BLOCKED/STATE_BLOCKED_W_TMO */ |
243 | #endif | 240 | #endif |
244 | struct thread_entry *queue; /* List of threads waiting for thread to be | 241 | struct thread_entry *queue; /* List of threads waiting for thread to be |
245 | removed */ | 242 | removed */ |
246 | #ifdef HAVE_EXTENDED_MESSAGING_AND_NAME | 243 | #ifdef HAVE_EXTENDED_MESSAGING_AND_NAME |
247 | intptr_t retval; /* Return value from a blocked operation */ | 244 | #define HAVE_WAKEUP_EXT_CB |
245 | void (*wakeup_ext_cb)(struct thread_entry *thread); /* Callback that | ||
246 | performs special steps needed when being | ||
247 | forced off of an object's wait queue that | ||
248 | go beyond the standard wait queue removal | ||
249 | and priority disinheritance */ | ||
250 | /* Only enabled when using queue_send for now */ | ||
251 | #endif | ||
252 | #if defined(HAVE_EXTENDED_MESSAGING_AND_NAME) || NUM_CORES > 1 | ||
253 | intptr_t retval; /* Return value from a blocked operation/ | ||
254 | misc. use */ | ||
248 | #endif | 255 | #endif |
249 | #ifdef HAVE_PRIORITY_SCHEDULING | 256 | #ifdef HAVE_PRIORITY_SCHEDULING |
250 | long last_run; /* Last tick when started */ | 257 | /* Priority summary of owned objects that support inheritance */ |
258 | struct blocker *blocker; /* Pointer to blocker when this thread is blocked | ||
259 | on an object that supports PIP - | ||
260 | states: STATE_BLOCKED/STATE_BLOCKED_W_TMO */ | ||
261 | struct priority_distribution pdist; /* Priority summary of owned objects | ||
262 | that have blocked threads and thread's own | ||
263 | base priority */ | ||
264 | int skip_count; /* Number of times skipped if higher priority | ||
265 | thread was running */ | ||
251 | #endif | 266 | #endif |
252 | unsigned short stack_size; /* Size of stack in bytes */ | 267 | unsigned short stack_size; /* Size of stack in bytes */ |
253 | #ifdef HAVE_PRIORITY_SCHEDULING | 268 | #ifdef HAVE_PRIORITY_SCHEDULING |
254 | unsigned char priority; /* Current priority */ | 269 | unsigned char base_priority; /* Base priority (set explicitly during |
255 | unsigned char priority_x; /* Inherited priority - right now just a | 270 | creation or thread_set_priority) */ |
256 | runtime guarantee flag */ | 271 | unsigned char priority; /* Scheduled priority (higher of base or |
272 | all threads blocked by this one) */ | ||
257 | #endif | 273 | #endif |
258 | unsigned char state; /* Thread slot state (STATE_*) */ | 274 | unsigned char state; /* Thread slot state (STATE_*) */ |
259 | #if NUM_CORES > 1 | ||
260 | unsigned char core; /* The core to which thread belongs */ | ||
261 | #endif | ||
262 | #ifdef HAVE_SCHEDULER_BOOSTCTRL | 275 | #ifdef HAVE_SCHEDULER_BOOSTCTRL |
263 | unsigned char boosted; /* CPU frequency boost flag */ | 276 | unsigned char cpu_boost; /* CPU frequency boost flag */ |
264 | #endif | 277 | #endif |
265 | #if CONFIG_CORELOCK == SW_CORELOCK | 278 | #if NUM_CORES > 1 |
266 | struct corelock cl; /* Corelock to lock thread slot */ | 279 | unsigned char core; /* The core to which thread belongs */ |
280 | struct corelock waiter_cl; /* Corelock for thread_wait */ | ||
281 | struct corelock slot_cl; /* Corelock to lock thread slot */ | ||
267 | #endif | 282 | #endif |
268 | }; | 283 | }; |
269 | 284 | ||
270 | #if NUM_CORES > 1 | 285 | #if NUM_CORES > 1 |
271 | /* Operations to be performed just before stopping a thread and starting | 286 | /* Operations to be performed just before stopping a thread and starting |
272 | a new one if specified before calling switch_thread */ | 287 | a new one if specified before calling switch_thread */ |
273 | #define TBOP_UNLOCK_LIST 0x01 /* Set a pointer variable address var_ptrp */ | 288 | enum |
274 | #if CONFIG_CORELOCK == CORELOCK_SWAP | 289 | { |
275 | #define TBOP_SET_VARi 0x02 /* Set an int at address var_ip */ | 290 | TBOP_CLEAR = 0, /* No operation to do */ |
276 | #define TBOP_SET_VARu8 0x03 /* Set an unsigned char at address var_u8p */ | 291 | TBOP_UNLOCK_CORELOCK, /* Unlock a corelock variable */ |
277 | #define TBOP_VAR_TYPE_MASK 0x03 /* Mask for variable type*/ | 292 | TBOP_SWITCH_CORE, /* Call the core switch preparation routine */ |
278 | #endif /* CONFIG_CORELOCK */ | 293 | }; |
279 | #define TBOP_UNLOCK_CORELOCK 0x04 | ||
280 | #define TBOP_UNLOCK_THREAD 0x08 /* Unlock a thread's slot */ | ||
281 | #define TBOP_UNLOCK_CURRENT 0x10 /* Unlock the current thread's slot */ | ||
282 | #define TBOP_SWITCH_CORE 0x20 /* Call the core switch preparation routine */ | ||
283 | 294 | ||
284 | struct thread_blk_ops | 295 | struct thread_blk_ops |
285 | { | 296 | { |
286 | #if CONFIG_CORELOCK != SW_CORELOCK | 297 | struct corelock *cl_p; /* pointer to corelock */ |
287 | union | 298 | unsigned char flags; /* TBOP_* flags */ |
288 | { | ||
289 | int var_iv; /* int variable value to set */ | ||
290 | uint8_t var_u8v; /* unsigned char valur to set */ | ||
291 | struct thread_entry *list_v; /* list pointer queue value to set */ | ||
292 | }; | ||
293 | #endif | ||
294 | union | ||
295 | { | ||
296 | #if CONFIG_CORELOCK != SW_CORELOCK | ||
297 | int *var_ip; /* pointer to int variable */ | ||
298 | uint8_t *var_u8p; /* pointer to unsigned char varuable */ | ||
299 | #endif | ||
300 | struct thread_queue *list_p; /* pointer to list variable */ | ||
301 | }; | ||
302 | #if CONFIG_CORELOCK == SW_CORELOCK | ||
303 | struct corelock *cl_p; /* corelock to unlock */ | ||
304 | struct thread_entry *thread; /* thread to unlock */ | ||
305 | #elif CONFIG_CORELOCK == CORELOCK_SWAP | ||
306 | unsigned char state; /* new thread state (performs unlock) */ | ||
307 | #endif /* SOFTWARE_CORELOCK */ | ||
308 | unsigned char flags; /* TBOP_* flags */ | ||
309 | }; | 299 | }; |
310 | #endif /* NUM_CORES > 1 */ | 300 | #endif /* NUM_CORES > 1 */ |
311 | 301 | ||
@@ -316,28 +306,30 @@ struct core_entry | |||
316 | { | 306 | { |
317 | /* "Active" lists - core is constantly active on these and are never | 307 | /* "Active" lists - core is constantly active on these and are never |
318 | locked and interrupts do not access them */ | 308 | locked and interrupts do not access them */ |
319 | struct thread_entry *running; /* threads that are running */ | 309 | struct thread_entry *running; /* threads that are running (RTR) */ |
320 | struct thread_entry *timeout; /* threads that are on a timeout before | 310 | struct thread_entry *timeout; /* threads that are on a timeout before |
321 | running again */ | 311 | running again */ |
322 | /* "Shared" lists - cores interact in a synchronized manner - access | 312 | struct thread_entry *block_task; /* Task going off running list */ |
323 | is locked between cores and interrupts */ | 313 | #ifdef HAVE_PRIORITY_SCHEDULING |
324 | struct thread_queue waking; /* intermediate locked list that | 314 | struct priority_distribution rtr; /* Summary of running and ready-to-run |
325 | hold threads other core should wake up | 315 | threads */ |
326 | on next task switch */ | 316 | #endif |
327 | long next_tmo_check; /* soonest time to check tmo threads */ | 317 | long next_tmo_check; /* soonest time to check tmo threads */ |
328 | #if NUM_CORES > 1 | 318 | #if NUM_CORES > 1 |
329 | struct thread_blk_ops blk_ops; /* operations to perform when | 319 | struct thread_blk_ops blk_ops; /* operations to perform when |
330 | blocking a thread */ | 320 | blocking a thread */ |
331 | #endif /* NUM_CORES */ | ||
332 | #ifdef HAVE_PRIORITY_SCHEDULING | 321 | #ifdef HAVE_PRIORITY_SCHEDULING |
333 | unsigned char highest_priority; | 322 | struct corelock rtr_cl; /* Lock for rtr list */ |
334 | #endif | 323 | #endif |
324 | #endif /* NUM_CORES */ | ||
335 | }; | 325 | }; |
336 | 326 | ||
337 | #ifdef HAVE_PRIORITY_SCHEDULING | 327 | #ifdef HAVE_PRIORITY_SCHEDULING |
338 | #define IF_PRIO(...) __VA_ARGS__ | 328 | #define IF_PRIO(...) __VA_ARGS__ |
329 | #define IFN_PRIO(...) | ||
339 | #else | 330 | #else |
340 | #define IF_PRIO(...) | 331 | #define IF_PRIO(...) |
332 | #define IFN_PRIO(...) __VA_ARGS__ | ||
341 | #endif | 333 | #endif |
342 | 334 | ||
343 | /* Macros generate better code than an inline function is this case */ | 335 | /* Macros generate better code than an inline function is this case */ |
@@ -464,13 +456,18 @@ struct core_entry | |||
464 | void core_idle(void); | 456 | void core_idle(void); |
465 | void core_wake(IF_COP_VOID(unsigned int core)); | 457 | void core_wake(IF_COP_VOID(unsigned int core)); |
466 | 458 | ||
459 | /* Initialize the scheduler */ | ||
460 | void init_threads(void); | ||
461 | |||
462 | /* Allocate a thread in the scheduler */ | ||
467 | #define CREATE_THREAD_FROZEN 0x00000001 /* Thread is frozen at create time */ | 463 | #define CREATE_THREAD_FROZEN 0x00000001 /* Thread is frozen at create time */ |
468 | struct thread_entry* | 464 | struct thread_entry* |
469 | create_thread(void (*function)(void), void* stack, int stack_size, | 465 | create_thread(void (*function)(void), void* stack, size_t stack_size, |
470 | unsigned flags, const char *name | 466 | unsigned flags, const char *name |
471 | IF_PRIO(, int priority) | 467 | IF_PRIO(, int priority) |
472 | IF_COP(, unsigned int core)); | 468 | IF_COP(, unsigned int core)); |
473 | 469 | ||
470 | /* Set and clear the CPU frequency boost flag for the calling thread */ | ||
474 | #ifdef HAVE_SCHEDULER_BOOSTCTRL | 471 | #ifdef HAVE_SCHEDULER_BOOSTCTRL |
475 | void trigger_cpu_boost(void); | 472 | void trigger_cpu_boost(void); |
476 | void cancel_cpu_boost(void); | 473 | void cancel_cpu_boost(void); |
@@ -478,86 +475,52 @@ void cancel_cpu_boost(void); | |||
478 | #define trigger_cpu_boost() | 475 | #define trigger_cpu_boost() |
479 | #define cancel_cpu_boost() | 476 | #define cancel_cpu_boost() |
480 | #endif | 477 | #endif |
478 | /* Make a frozed thread runnable (when started with CREATE_THREAD_FROZEN). | ||
479 | * Has no effect on a thread not frozen. */ | ||
481 | void thread_thaw(struct thread_entry *thread); | 480 | void thread_thaw(struct thread_entry *thread); |
481 | /* Wait for a thread to exit */ | ||
482 | void thread_wait(struct thread_entry *thread); | 482 | void thread_wait(struct thread_entry *thread); |
483 | /* Exit the current thread */ | ||
484 | void thread_exit(void); | ||
485 | #if defined(DEBUG) || defined(ROCKBOX_HAS_LOGF) | ||
486 | #define ALLOW_REMOVE_THREAD | ||
487 | /* Remove a thread from the scheduler */ | ||
483 | void remove_thread(struct thread_entry *thread); | 488 | void remove_thread(struct thread_entry *thread); |
484 | void switch_thread(struct thread_entry *old); | 489 | #endif |
485 | void sleep_thread(int ticks); | ||
486 | 490 | ||
487 | /** | 491 | /* Switch to next runnable thread */ |
488 | * Setup to allow using thread queues as locked or non-locked without speed | 492 | void switch_thread(void); |
489 | * sacrifices in both core locking types. | 493 | /* Blocks a thread for at least the specified number of ticks (0 = wait until |
490 | * | 494 | * next tick) */ |
491 | * The blocking/waking function inline two different version of the real | 495 | void sleep_thread(int ticks); |
492 | * function into the stubs when a software or other separate core locking | 496 | /* Indefinitely blocks the current thread on a thread queue */ |
493 | * mechanism is employed. | 497 | void block_thread(struct thread_entry *current); |
494 | * | 498 | /* Blocks the current thread on a thread queue until explicitely woken or |
495 | * When a simple test-and-set or similar instruction is available, locking | 499 | * the timeout is reached */ |
496 | * has no cost and so one version is used and the internal worker is called | 500 | void block_thread_w_tmo(struct thread_entry *current, int timeout); |
497 | * directly. | 501 | |
498 | * | 502 | /* Return bit flags for thread wakeup */ |
499 | * CORELOCK_NONE is treated the same as when an atomic instruction can be | 503 | #define THREAD_NONE 0x0 /* No thread woken up (exclusive) */ |
500 | * used. | 504 | #define THREAD_OK 0x1 /* A thread was woken up */ |
501 | */ | 505 | #define THREAD_SWITCH 0x2 /* Task switch recommended (one or more of |
506 | higher priority than current were woken) */ | ||
502 | 507 | ||
503 | /* Blocks the current thread on a thread queue */ | ||
504 | #if CONFIG_CORELOCK == SW_CORELOCK | ||
505 | void block_thread(struct thread_queue *tq); | ||
506 | void block_thread_no_listlock(struct thread_entry **list); | ||
507 | #else | ||
508 | void _block_thread(struct thread_queue *tq); | ||
509 | static inline void block_thread(struct thread_queue *tq) | ||
510 | { _block_thread(tq); } | ||
511 | static inline void block_thread_no_listlock(struct thread_entry **list) | ||
512 | { _block_thread((struct thread_queue *)list); } | ||
513 | #endif /* CONFIG_CORELOCK */ | ||
514 | |||
515 | /* Blocks the current thread on a thread queue for a max amount of time | ||
516 | * There is no "_no_listlock" version because timeout blocks without sync on | ||
517 | * the blocking queues is not permitted since either core could access the | ||
518 | * list at any time to do an implicit wake. In other words, objects with | ||
519 | * timeout support require lockable queues. */ | ||
520 | void block_thread_w_tmo(struct thread_queue *tq, int timeout); | ||
521 | |||
522 | /* Wakes up the thread at the head of the queue */ | ||
523 | #define THREAD_WAKEUP_NONE ((struct thread_entry *)NULL) | ||
524 | #define THREAD_WAKEUP_MISSING ((struct thread_entry *)(NULL+1)) | ||
525 | #if CONFIG_CORELOCK == SW_CORELOCK | ||
526 | struct thread_entry * wakeup_thread(struct thread_queue *tq); | ||
527 | struct thread_entry * wakeup_thread_no_listlock(struct thread_entry **list); | ||
528 | #else | ||
529 | struct thread_entry * _wakeup_thread(struct thread_queue *list); | ||
530 | static inline struct thread_entry * wakeup_thread(struct thread_queue *tq) | ||
531 | { return _wakeup_thread(tq); } | ||
532 | static inline struct thread_entry * wakeup_thread_no_listlock(struct thread_entry **list) | ||
533 | { return _wakeup_thread((struct thread_queue *)list); } | ||
534 | #endif /* CONFIG_CORELOCK */ | ||
535 | |||
536 | /* Initialize a thread_queue object. */ | ||
537 | static inline void thread_queue_init(struct thread_queue *tq) | ||
538 | { tq->queue = NULL; IF_SWCL(corelock_init(&tq->cl);) } | ||
539 | /* A convenience function for waking an entire queue of threads. */ | 508 | /* A convenience function for waking an entire queue of threads. */ |
540 | static inline void thread_queue_wake(struct thread_queue *tq) | 509 | unsigned int thread_queue_wake(struct thread_entry **list); |
541 | { while (wakeup_thread(tq) != NULL); } | 510 | |
542 | /* The no-listlock version of thread_queue_wake() */ | 511 | /* Wakeup a thread at the head of a list */ |
543 | static inline void thread_queue_wake_no_listlock(struct thread_entry **list) | 512 | unsigned int wakeup_thread(struct thread_entry **list); |
544 | { while (wakeup_thread_no_listlock(list) != NULL); } | ||
545 | 513 | ||
546 | #ifdef HAVE_PRIORITY_SCHEDULING | 514 | #ifdef HAVE_PRIORITY_SCHEDULING |
547 | int thread_set_priority(struct thread_entry *thread, int priority); | 515 | int thread_set_priority(struct thread_entry *thread, int priority); |
548 | int thread_get_priority(struct thread_entry *thread); | 516 | int thread_get_priority(struct thread_entry *thread); |
549 | /* Yield that guarantees thread execution once per round regardless of | ||
550 | thread's scheduler priority - basically a transient realtime boost | ||
551 | without altering the scheduler's thread precedence. */ | ||
552 | void priority_yield(void); | ||
553 | #else | ||
554 | #define priority_yield yield | ||
555 | #endif /* HAVE_PRIORITY_SCHEDULING */ | 517 | #endif /* HAVE_PRIORITY_SCHEDULING */ |
556 | #if NUM_CORES > 1 | 518 | #if NUM_CORES > 1 |
557 | unsigned int switch_core(unsigned int new_core); | 519 | unsigned int switch_core(unsigned int new_core); |
558 | #endif | 520 | #endif |
559 | struct thread_entry * thread_get_current(void); | 521 | struct thread_entry * thread_get_current(void); |
560 | void init_threads(void); | 522 | |
523 | /* Debugging info - only! */ | ||
561 | int thread_stack_usage(const struct thread_entry *thread); | 524 | int thread_stack_usage(const struct thread_entry *thread); |
562 | #if NUM_CORES > 1 | 525 | #if NUM_CORES > 1 |
563 | int idle_stack_usage(unsigned int core); | 526 | int idle_stack_usage(unsigned int core); |